LCOV - code coverage report
Current view: top level - fs - pnode.c (source / functions) Hit Total Coverage
Test: fstests of 6.5.0-rc3-achx @ Mon Jul 31 20:08:12 PDT 2023 Lines: 224 270 83.0 %
Date: 2023-07-31 20:08:12 Functions: 17 18 94.4 %

          Line data    Source code
       1             : // SPDX-License-Identifier: GPL-2.0-only
       2             : /*
       3             :  *  linux/fs/pnode.c
       4             :  *
       5             :  * (C) Copyright IBM Corporation 2005.
       6             :  *      Author : Ram Pai (linuxram@us.ibm.com)
       7             :  */
       8             : #include <linux/mnt_namespace.h>
       9             : #include <linux/mount.h>
      10             : #include <linux/fs.h>
      11             : #include <linux/nsproxy.h>
      12             : #include <uapi/linux/mount.h>
      13             : #include "internal.h"
      14             : #include "pnode.h"
      15             : 
      16             : /* return the next shared peer mount of @p */
      17             : static inline struct mount *next_peer(struct mount *p)
      18             : {
      19    43821638 :         return list_entry(p->mnt_share.next, struct mount, mnt_share);
      20             : }
      21             : 
      22             : static inline struct mount *first_slave(struct mount *p)
      23             : {
      24     1372303 :         return list_entry(p->mnt_slave_list.next, struct mount, mnt_slave);
      25             : }
      26             : 
      27             : static inline struct mount *last_slave(struct mount *p)
      28             : {
      29           0 :         return list_entry(p->mnt_slave_list.prev, struct mount, mnt_slave);
      30             : }
      31             : 
      32             : static inline struct mount *next_slave(struct mount *p)
      33             : {
      34    12455070 :         return list_entry(p->mnt_slave.next, struct mount, mnt_slave);
      35             : }
      36             : 
      37     1403220 : static struct mount *get_peer_under_root(struct mount *mnt,
      38             :                                          struct mnt_namespace *ns,
      39             :                                          const struct path *root)
      40             : {
      41     1403220 :         struct mount *m = mnt;
      42             : 
      43    33300663 :         do {
      44             :                 /* Check the namespace first for optimization */
      45    33300663 :                 if (m->mnt_ns == ns && is_path_reachable(m, m->mnt.mnt_root, root))
      46        5147 :                         return m;
      47             : 
      48    33295504 :                 m = next_peer(m);
      49    33295504 :         } while (m != mnt);
      50             : 
      51             :         return NULL;
      52             : }
      53             : 
      54             : /*
      55             :  * Get ID of closest dominating peer group having a representative
      56             :  * under the given root.
      57             :  *
      58             :  * Caller must hold namespace_sem
      59             :  */
      60     1403231 : int get_dominating_id(struct mount *mnt, const struct path *root)
      61             : {
      62     1403231 :         struct mount *m;
      63             : 
      64     2801292 :         for (m = mnt->mnt_master; m != NULL; m = m->mnt_master) {
      65     1403231 :                 struct mount *d = get_peer_under_root(m, mnt->mnt_ns, root);
      66     1403206 :                 if (d)
      67        5145 :                         return d->mnt_group_id;
      68             :         }
      69             : 
      70             :         return 0;
      71             : }
      72             : 
      73     3085376 : static int do_make_slave(struct mount *mnt)
      74             : {
      75     3085376 :         struct mount *master, *slave_mnt;
      76             : 
      77     3085376 :         if (list_empty(&mnt->mnt_share)) {
      78     2798231 :                 if (IS_MNT_SHARED(mnt)) {
      79     1383758 :                         mnt_release_group_id(mnt);
      80     1383758 :                         CLEAR_MNT_SHARED(mnt);
      81             :                 }
      82     2798231 :                 master = mnt->mnt_master;
      83     2798231 :                 if (!master) {
      84     1428977 :                         struct list_head *p = &mnt->mnt_slave_list;
      85     2628854 :                         while (!list_empty(p)) {
      86     1199877 :                                 slave_mnt = list_first_entry(p,
      87             :                                                 struct mount, mnt_slave);
      88     1199877 :                                 list_del_init(&slave_mnt->mnt_slave);
      89     1199877 :                                 slave_mnt->mnt_master = NULL;
      90             :                         }
      91             :                         return 0;
      92             :                 }
      93             :         } else {
      94      287145 :                 struct mount *m;
      95             :                 /*
      96             :                  * slave 'mnt' to a peer mount that has the
      97             :                  * same root dentry. If none is available then
      98             :                  * slave it to anything that is available.
      99             :                  */
     100     1370237 :                 for (m = master = next_peer(mnt); m != mnt; m = next_peer(m)) {
     101     1240108 :                         if (m->mnt.mnt_root == mnt->mnt.mnt_root) {
     102             :                                 master = m;
     103             :                                 break;
     104             :                         }
     105             :                 }
     106      287145 :                 list_del_init(&mnt->mnt_share);
     107      287145 :                 mnt->mnt_group_id = 0;
     108      287145 :                 CLEAR_MNT_SHARED(mnt);
     109             :         }
     110     2965029 :         list_for_each_entry(slave_mnt, &mnt->mnt_slave_list, mnt_slave)
     111     1308630 :                 slave_mnt->mnt_master = master;
     112     1656399 :         list_move(&mnt->mnt_slave, &master->mnt_slave_list);
     113     1656399 :         list_splice(&mnt->mnt_slave_list, master->mnt_slave_list.prev);
     114     1656399 :         INIT_LIST_HEAD(&mnt->mnt_slave_list);
     115     1656399 :         mnt->mnt_master = master;
     116     1656399 :         return 0;
     117             : }
     118             : 
     119             : /*
     120             :  * vfsmount lock must be held for write
     121             :  */
     122     3092971 : void change_mnt_propagation(struct mount *mnt, int type)
     123             : {
     124     3092971 :         if (type == MS_SHARED) {
     125        7595 :                 set_mnt_shared(mnt);
     126        7595 :                 return;
     127             :         }
     128     3085376 :         do_make_slave(mnt);
     129     3085376 :         if (type != MS_SLAVE) {
     130     3079154 :                 list_del_init(&mnt->mnt_slave);
     131     3079154 :                 mnt->mnt_master = NULL;
     132     3079154 :                 if (type == MS_UNBINDABLE)
     133         195 :                         mnt->mnt.mnt_flags |= MNT_UNBINDABLE;
     134             :                 else
     135     3078959 :                         mnt->mnt.mnt_flags &= ~MNT_UNBINDABLE;
     136             :         }
     137             : }
     138             : 
     139             : /*
     140             :  * get the next mount in the propagation tree.
     141             :  * @m: the mount seen last
     142             :  * @origin: the original mount from where the tree walk initiated
     143             :  *
     144             :  * Note that peer groups form contiguous segments of slave lists.
     145             :  * We rely on that in get_source() to be able to find out if
     146             :  * vfsmount found while iterating with propagation_next() is
     147             :  * a peer of one we'd found earlier.
     148             :  */
     149    12280978 : static struct mount *propagation_next(struct mount *m,
     150             :                                          struct mount *origin)
     151             : {
     152             :         /* are there any slaves of this mount? */
     153    12280978 :         if (!IS_MNT_NEW(m) && !list_empty(&m->mnt_slave_list))
     154     1061397 :                 return first_slave(m);
     155             : 
     156    12280978 :         while (1) {
     157    12280978 :                 struct mount *master = m->mnt_master;
     158             : 
     159    12280978 :                 if (master == origin->mnt_master) {
     160     1595287 :                         struct mount *next = next_peer(m);
     161     1595287 :                         return (next == origin) ? NULL : next;
     162    10685691 :                 } else if (m->mnt_slave.next != &master->mnt_slave_list)
     163     9624294 :                         return next_slave(m);
     164             : 
     165             :                 /* back at master */
     166             :                 m = master;
     167             :         }
     168             : }
     169             : 
     170             : static struct mount *skip_propagation_subtree(struct mount *m,
     171             :                                                 struct mount *origin)
     172             : {
     173             :         /*
     174             :          * Advance m such that propagation_next will not return
     175             :          * the slaves of m.
     176             :          */
     177           0 :         if (!IS_MNT_NEW(m) && !list_empty(&m->mnt_slave_list))
     178           0 :                 m = last_slave(m);
     179             : 
     180           0 :         return m;
     181             : }
     182             : 
     183     3393529 : static struct mount *next_group(struct mount *m, struct mount *origin)
     184             : {
     185     3845305 :         while (1) {
     186     3845305 :                 while (1) {
     187     3845305 :                         struct mount *next;
     188     3845305 :                         if (!IS_MNT_NEW(m) && !list_empty(&m->mnt_slave_list))
     189      310906 :                                 return first_slave(m);
     190     3534399 :                         next = next_peer(m);
     191     3534399 :                         if (m->mnt_group_id == origin->mnt_group_id) {
     192      392652 :                                 if (next == origin)
     193             :                                         return NULL;
     194     3141747 :                         } else if (m->mnt_slave.next != &next->mnt_slave)
     195             :                                 break;
     196             :                         m = next;
     197             :                 }
     198             :                 /* m is the last peer */
     199     3141682 :                 while (1) {
     200     3141682 :                         struct mount *master = m->mnt_master;
     201     3141682 :                         if (m->mnt_slave.next != &master->mnt_slave_list)
     202     2830776 :                                 return next_slave(m);
     203      310906 :                         m = next_peer(master);
     204      310906 :                         if (master->mnt_group_id == origin->mnt_group_id)
     205             :                                 break;
     206          39 :                         if (master->mnt_slave.next == &m->mnt_slave)
     207             :                                 break;
     208             :                         m = master;
     209             :                 }
     210      310880 :                 if (m == origin)
     211             :                         return NULL;
     212             :         }
     213             : }
     214             : 
     215             : /* all accesses are serialized by namespace_sem */
     216             : static struct mount *last_dest, *first_source, *last_source, *dest_master;
     217             : static struct hlist_head *list;
     218             : 
     219             : static inline bool peers(const struct mount *m1, const struct mount *m2)
     220             : {
     221     2642958 :         return m1->mnt_group_id == m2->mnt_group_id && m1->mnt_group_id;
     222             : }
     223             : 
     224     3463458 : static int propagate_one(struct mount *m, struct mountpoint *dest_mp)
     225             : {
     226     3463458 :         struct mount *child;
     227     3463458 :         int type;
     228             :         /* skip ones added by this propagate_mnt() */
     229     3463458 :         if (IS_MNT_NEW(m))
     230             :                 return 0;
     231             :         /* skip if mountpoint isn't covered by it */
     232     3332808 :         if (!is_subdir(dest_mp->m_dentry, m->mnt.mnt_root))
     233             :                 return 0;
     234     5285396 :         if (peers(m, last_dest)) {
     235             :                 type = CL_MAKE_SHARED;
     236             :         } else {
     237             :                 struct mount *n, *p;
     238             :                 bool done;
     239             :                 for (n = m; ; n = p) {
     240     2762478 :                         p = n->mnt_master;
     241     2762478 :                         if (p == dest_master || IS_MNT_MARKED(p))
     242             :                                 break;
     243             :                 }
     244     2511528 :                 do {
     245     2511528 :                         struct mount *parent = last_source->mnt_parent;
     246     5023056 :                         if (peers(last_source, first_source))
     247             :                                 break;
     248     2260344 :                         done = parent->mnt_master == p;
     249     4520415 :                         if (done && peers(n, parent))
     250             :                                 break;
     251     2260305 :                         last_source = last_source->mnt_master;
     252     2260305 :                 } while (!done);
     253             : 
     254     2511255 :                 type = CL_SLAVE;
     255             :                 /* beginning of peer group among the slaves? */
     256     2511255 :                 if (IS_MNT_SHARED(m))
     257     1255504 :                         type |= CL_MAKE_SHARED;
     258             :         }
     259             :                 
     260     2642698 :         child = copy_tree(last_source, last_source->mnt.mnt_root, type);
     261     2642698 :         if (IS_ERR(child))
     262           0 :                 return PTR_ERR(child);
     263     2642698 :         read_seqlock_excl(&mount_lock);
     264     2642698 :         mnt_set_mountpoint(m, dest_mp, child);
     265     2642698 :         if (m->mnt_master != dest_master)
     266     2511359 :                 SET_MNT_MARK(m->mnt_master);
     267     2642698 :         read_sequnlock_excl(&mount_lock);
     268     2642698 :         last_dest = m;
     269     2642698 :         last_source = child;
     270     2642698 :         hlist_add_head(&child->mnt_hash, list);
     271     2642698 :         return count_mounts(m->mnt_ns, child);
     272             : }
     273             : 
     274             : /*
     275             :  * mount 'source_mnt' under the destination 'dest_mnt' at
     276             :  * dentry 'dest_dentry'. And propagate that mount to
     277             :  * all the peer and slave mounts of 'dest_mnt'.
     278             :  * Link all the new mounts into a propagation tree headed at
     279             :  * source_mnt. Also link all the new mounts using ->mnt_list
     280             :  * headed at source_mnt's ->mnt_list
     281             :  *
     282             :  * @dest_mnt: destination mount.
     283             :  * @dest_dentry: destination dentry.
     284             :  * @source_mnt: source mount.
     285             :  * @tree_list : list of heads of trees to be attached.
     286             :  */
     287      251847 : int propagate_mnt(struct mount *dest_mnt, struct mountpoint *dest_mp,
     288             :                     struct mount *source_mnt, struct hlist_head *tree_list)
     289             : {
     290      251847 :         struct mount *m, *n;
     291      251847 :         int ret = 0;
     292             : 
     293             :         /*
     294             :          * we don't want to bother passing tons of arguments to
     295             :          * propagate_one(); everything is serialized by namespace_sem,
     296             :          * so globals will do just fine.
     297             :          */
     298      251847 :         last_dest = dest_mnt;
     299      251847 :         first_source = source_mnt;
     300      251847 :         last_source = source_mnt;
     301      251847 :         list = tree_list;
     302      251847 :         dest_master = dest_mnt->mnt_master;
     303             : 
     304             :         /* all peers of dest_mnt, except dest_mnt itself */
     305      573519 :         for (n = next_peer(dest_mnt); n != dest_mnt; n = next_peer(n)) {
     306      321672 :                 ret = propagate_one(n, dest_mp);
     307      321672 :                 if (ret)
     308           0 :                         goto out;
     309             :         }
     310             : 
     311             :         /* all slave groups */
     312     3393529 :         for (m = next_group(dest_mnt, dest_mnt); m;
     313     3141682 :                         m = next_group(m, dest_mnt)) {
     314             :                 /* everything in that slave group */
     315             :                 n = m;
     316     3141786 :                 do {
     317     3141786 :                         ret = propagate_one(n, dest_mp);
     318     3141786 :                         if (ret)
     319           0 :                                 goto out;
     320     3141786 :                         n = next_peer(n);
     321     3141786 :                 } while (n != m);
     322             :         }
     323      251847 : out:
     324      251847 :         read_seqlock_excl(&mount_lock);
     325     5537542 :         hlist_for_each_entry(n, tree_list, mnt_hash) {
     326     2642698 :                 m = n->mnt_parent;
     327     2642698 :                 if (m->mnt_master != dest_mnt->mnt_master)
     328     2511359 :                         CLEAR_MNT_MARK(m->mnt_master);
     329             :         }
     330      251847 :         read_sequnlock_excl(&mount_lock);
     331      251847 :         return ret;
     332             : }
     333             : 
     334     1205406 : static struct mount *find_topper(struct mount *mnt)
     335             : {
     336             :         /* If there is exactly one mount covering mnt completely return it. */
     337     1205406 :         struct mount *child;
     338             : 
     339     1205406 :         if (!list_is_singular(&mnt->mnt_mounts))
     340             :                 return NULL;
     341             : 
     342           0 :         child = list_first_entry(&mnt->mnt_mounts, struct mount, mnt_child);
     343           0 :         if (child->mnt_mountpoint != mnt->mnt.mnt_root)
     344           0 :                 return NULL;
     345             : 
     346             :         return child;
     347             : }
     348             : 
     349             : /*
     350             :  * return true if the refcount is greater than count
     351             :  */
     352             : static inline int do_refcount_check(struct mount *mnt, int count)
     353             : {
     354      123748 :         return mnt_get_count(mnt) > count;
     355             : }
     356             : 
     357             : /**
     358             :  * propagation_would_overmount - check whether propagation from @from
     359             :  *                               would overmount @to
     360             :  * @from: shared mount
     361             :  * @to:   mount to check
     362             :  * @mp:   future mountpoint of @to on @from
     363             :  *
     364             :  * If @from propagates mounts to @to, @from and @to must either be peers
     365             :  * or one of the masters in the hierarchy of masters of @to must be a
     366             :  * peer of @from.
     367             :  *
     368             :  * If the root of the @to mount is equal to the future mountpoint @mp of
     369             :  * the @to mount on @from then @to will be overmounted by whatever is
     370             :  * propagated to it.
     371             :  *
     372             :  * Context: This function expects namespace_lock() to be held and that
     373             :  *          @mp is stable.
     374             :  * Return: If @from overmounts @to, true is returned, false if not.
     375             :  */
     376           0 : bool propagation_would_overmount(const struct mount *from,
     377             :                                  const struct mount *to,
     378             :                                  const struct mountpoint *mp)
     379             : {
     380           0 :         if (!IS_MNT_SHARED(from))
     381             :                 return false;
     382             : 
     383           0 :         if (IS_MNT_NEW(to))
     384             :                 return false;
     385             : 
     386           0 :         if (to->mnt.mnt_root != mp->m_dentry)
     387             :                 return false;
     388             : 
     389           0 :         for (const struct mount *m = to; m; m = m->mnt_master) {
     390           0 :                 if (peers(from, m))
     391             :                         return true;
     392             :         }
     393             : 
     394             :         return false;
     395             : }
     396             : 
     397             : /*
     398             :  * check if the mount 'mnt' can be unmounted successfully.
     399             :  * @mnt: the mount to be checked for unmount
     400             :  * NOTE: unmounting 'mnt' would naturally propagate to all
     401             :  * other mounts its parent propagates to.
     402             :  * Check if any of these mounts that **do not have submounts**
     403             :  * have more references than 'refcnt'. If so return busy.
     404             :  *
     405             :  * vfsmount lock must be held for write
     406             :  */
     407      123780 : int propagate_mount_busy(struct mount *mnt, int refcnt)
     408             : {
     409      123780 :         struct mount *m, *child, *topper;
     410      123780 :         struct mount *parent = mnt->mnt_parent;
     411             : 
     412      123780 :         if (mnt == parent)
     413           0 :                 return do_refcount_check(mnt, refcnt);
     414             : 
     415             :         /*
     416             :          * quickly check if the current mount can be unmounted.
     417             :          * If not, we don't have to go checking for all other
     418             :          * mounts
     419             :          */
     420      247528 :         if (!list_empty(&mnt->mnt_mounts) || do_refcount_check(mnt, refcnt))
     421          32 :                 return 1;
     422             : 
     423     1972080 :         for (m = propagation_next(parent, parent); m;
     424     1848332 :                         m = propagation_next(m, parent)) {
     425     1848332 :                 int count = 1;
     426     1848332 :                 child = __lookup_mnt(&m->mnt, mnt->mnt_mountpoint);
     427     1848332 :                 if (!child)
     428      642926 :                         continue;
     429             : 
     430             :                 /* Is there exactly one mount on the child that covers
     431             :                  * it completely whose reference should be ignored?
     432             :                  */
     433     1205406 :                 topper = find_topper(child);
     434     1205406 :                 if (topper)
     435             :                         count += 1;
     436     1205406 :                 else if (!list_empty(&child->mnt_mounts))
     437           0 :                         continue;
     438             : 
     439     1205406 :                 if (do_refcount_check(child, count))
     440             :                         return 1;
     441             :         }
     442             :         return 0;
     443             : }
     444             : 
     445             : /*
     446             :  * Clear MNT_LOCKED when it can be shown to be safe.
     447             :  *
     448             :  * mount_lock lock must be held for write
     449             :  */
     450      254532 : void propagate_mount_unlock(struct mount *mnt)
     451             : {
     452      254532 :         struct mount *parent = mnt->mnt_parent;
     453      254532 :         struct mount *m, *child;
     454             : 
     455      254532 :         BUG_ON(parent == mnt);
     456             : 
     457     5154449 :         for (m = propagation_next(parent, parent); m;
     458     4899917 :                         m = propagation_next(m, parent)) {
     459     4899917 :                 child = __lookup_mnt(&m->mnt, mnt->mnt_mountpoint);
     460     4899917 :                 if (child)
     461     2642706 :                         child->mnt.mnt_flags &= ~MNT_LOCKED;
     462             :         }
     463      254532 : }
     464             : 
     465     2642706 : static void umount_one(struct mount *mnt, struct list_head *to_umount)
     466             : {
     467     2642706 :         CLEAR_MNT_MARK(mnt);
     468     2642706 :         mnt->mnt.mnt_flags |= MNT_UMOUNT;
     469     2642706 :         list_del_init(&mnt->mnt_child);
     470     2642706 :         list_del_init(&mnt->mnt_umounting);
     471     2642706 :         list_move_tail(&mnt->mnt_list, to_umount);
     472     2642706 : }
     473             : 
     474             : /*
     475             :  * NOTE: unmounting 'mnt' naturally propagates to all other mounts its
     476             :  * parent propagates to.
     477             :  */
     478     2642706 : static bool __propagate_umount(struct mount *mnt,
     479             :                                struct list_head *to_umount,
     480             :                                struct list_head *to_restore)
     481             : {
     482     2642706 :         bool progress = false;
     483     2642706 :         struct mount *child;
     484             : 
     485             :         /*
     486             :          * The state of the parent won't change if this mount is
     487             :          * already unmounted or marked as without children.
     488             :          */
     489     2642706 :         if (mnt->mnt.mnt_flags & (MNT_UMOUNT | MNT_MARKED))
     490           0 :                 goto out;
     491             : 
     492             :         /* Verify topper is the only grandchild that has not been
     493             :          * speculatively unmounted.
     494             :          */
     495     2642706 :         list_for_each_entry(child, &mnt->mnt_mounts, mnt_child) {
     496           0 :                 if (child->mnt_mountpoint == mnt->mnt.mnt_root)
     497           0 :                         continue;
     498           0 :                 if (!list_empty(&child->mnt_umounting) && IS_MNT_MARKED(child))
     499           0 :                         continue;
     500             :                 /* Found a mounted child */
     501           0 :                 goto children;
     502             :         }
     503             : 
     504             :         /* Mark mounts that can be unmounted if not locked */
     505     2642706 :         SET_MNT_MARK(mnt);
     506     2642706 :         progress = true;
     507             : 
     508             :         /* If a mount is without children and not locked umount it. */
     509     2642706 :         if (!IS_MNT_LOCKED(mnt)) {
     510     2642706 :                 umount_one(mnt, to_umount);
     511             :         } else {
     512           0 : children:
     513           0 :                 list_move_tail(&mnt->mnt_umounting, to_restore);
     514             :         }
     515     2642706 : out:
     516     2642706 :         return progress;
     517             : }
     518             : 
     519      254532 : static void umount_list(struct list_head *to_umount,
     520             :                         struct list_head *to_restore)
     521             : {
     522      254532 :         struct mount *mnt, *child, *tmp;
     523     2897238 :         list_for_each_entry(mnt, to_umount, mnt_list) {
     524     2642706 :                 list_for_each_entry_safe(child, tmp, &mnt->mnt_mounts, mnt_child) {
     525             :                         /* topper? */
     526           0 :                         if (child->mnt_mountpoint == mnt->mnt.mnt_root)
     527           0 :                                 list_move_tail(&child->mnt_umounting, to_restore);
     528             :                         else
     529           0 :                                 umount_one(child, to_umount);
     530             :                 }
     531             :         }
     532      254532 : }
     533             : 
     534      254532 : static void restore_mounts(struct list_head *to_restore)
     535             : {
     536             :         /* Restore mounts to a clean working state */
     537      509064 :         while (!list_empty(to_restore)) {
     538           0 :                 struct mount *mnt, *parent;
     539           0 :                 struct mountpoint *mp;
     540             : 
     541           0 :                 mnt = list_first_entry(to_restore, struct mount, mnt_umounting);
     542           0 :                 CLEAR_MNT_MARK(mnt);
     543           0 :                 list_del_init(&mnt->mnt_umounting);
     544             : 
     545             :                 /* Should this mount be reparented? */
     546           0 :                 mp = mnt->mnt_mp;
     547           0 :                 parent = mnt->mnt_parent;
     548           0 :                 while (parent->mnt.mnt_flags & MNT_UMOUNT) {
     549           0 :                         mp = parent->mnt_mp;
     550           0 :                         parent = parent->mnt_parent;
     551             :                 }
     552           0 :                 if (parent != mnt->mnt_parent)
     553           0 :                         mnt_change_mountpoint(parent, mp, mnt);
     554             :         }
     555      254532 : }
     556             : 
     557      254532 : static void cleanup_umount_visitations(struct list_head *visited)
     558             : {
     559      509064 :         while (!list_empty(visited)) {
     560      254532 :                 struct mount *mnt =
     561      254532 :                         list_first_entry(visited, struct mount, mnt_umounting);
     562      254532 :                 list_del_init(&mnt->mnt_umounting);
     563             :         }
     564      254532 : }
     565             : 
     566             : /*
     567             :  * collect all mounts that receive propagation from the mount in @list,
     568             :  * and return these additional mounts in the same list.
     569             :  * @list: the list of mounts to be unmounted.
     570             :  *
     571             :  * vfsmount lock must be held for write
     572             :  */
     573      254532 : int propagate_umount(struct list_head *list)
     574             : {
     575      254532 :         struct mount *mnt;
     576      254532 :         LIST_HEAD(to_restore);
     577      254532 :         LIST_HEAD(to_umount);
     578      254532 :         LIST_HEAD(visited);
     579             : 
     580             :         /* Find candidates for unmounting */
     581      509064 :         list_for_each_entry_reverse(mnt, list, mnt_list) {
     582      254532 :                 struct mount *parent = mnt->mnt_parent;
     583      254532 :                 struct mount *m;
     584             : 
     585             :                 /*
     586             :                  * If this mount has already been visited it is known that it's
     587             :                  * entire peer group and all of their slaves in the propagation
     588             :                  * tree for the mountpoint has already been visited and there is
     589             :                  * no need to visit them again.
     590             :                  */
     591      254532 :                 if (!list_empty(&mnt->mnt_umounting))
     592           0 :                         continue;
     593             : 
     594      254532 :                 list_add_tail(&mnt->mnt_umounting, &visited);
     595     5154449 :                 for (m = propagation_next(parent, parent); m;
     596     4899917 :                      m = propagation_next(m, parent)) {
     597     4899917 :                         struct mount *child = __lookup_mnt(&m->mnt,
     598             :                                                            mnt->mnt_mountpoint);
     599     4899917 :                         if (!child)
     600     2257211 :                                 continue;
     601             : 
     602     2642706 :                         if (!list_empty(&child->mnt_umounting)) {
     603             :                                 /*
     604             :                                  * If the child has already been visited it is
     605             :                                  * know that it's entire peer group and all of
     606             :                                  * their slaves in the propgation tree for the
     607             :                                  * mountpoint has already been visited and there
     608             :                                  * is no need to visit this subtree again.
     609             :                                  */
     610           0 :                                 m = skip_propagation_subtree(m, parent);
     611           0 :                                 continue;
     612     2642706 :                         } else if (child->mnt.mnt_flags & MNT_UMOUNT) {
     613             :                                 /*
     614             :                                  * We have come accross an partially unmounted
     615             :                                  * mount in list that has not been visited yet.
     616             :                                  * Remember it has been visited and continue
     617             :                                  * about our merry way.
     618             :                                  */
     619           0 :                                 list_add_tail(&child->mnt_umounting, &visited);
     620           0 :                                 continue;
     621             :                         }
     622             : 
     623             :                         /* Check the child and parents while progress is made */
     624     2642706 :                         while (__propagate_umount(child,
     625             :                                                   &to_umount, &to_restore)) {
     626             :                                 /* Is the parent a umount candidate? */
     627     2642706 :                                 child = child->mnt_parent;
     628     2642706 :                                 if (list_empty(&child->mnt_umounting))
     629             :                                         break;
     630             :                         }
     631             :                 }
     632             :         }
     633             : 
     634      254532 :         umount_list(&to_umount, &to_restore);
     635      254532 :         restore_mounts(&to_restore);
     636      254532 :         cleanup_umount_visitations(&visited);
     637      254532 :         list_splice_tail(&to_umount, list);
     638             : 
     639      254532 :         return 0;
     640             : }

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